Sistema nervoso fossilizado: complexidade há 520 milhões de anos!

sexta-feira, junho 16, 2017

Fuxianhuiid ventral nerve cord and early nervous system evolution in Panarthropoda

Jie Yang a, Javier Ortega-Hernández b,1, Nicholas J. Butterfield b, Yu Liu a,c,d, George S. Boyan c, Jin-bo Hou a, Tian Lan e, and Xi-guang Zhang a, 2  

Author Affiliations

aYunnan Key Laboratory for Paleobiology, Yunnan University, Kunming 650091, China;

bDepartment of Earth Sciences, University of Cambridge, Cambridge CB2 3EQ, United Kingdom;

cDevelopmental Neurobiology Group, Biocenter, Ludwig-Maximilians-Universität, 82152 Martinsried, Germany;

dGeoBio-Center Ludwig-Maximilians-Universität, Munich 80333, Germany;

eCollege of Resources and Environmental Engineering, Guizhou University, Guiyang 550003, China

Edited by Gregory D. Edgecombe, The Natural History Museum, London, United Kingdom, and accepted by the Editorial Board January 29, 2016 (received for review November 14, 2015)

Significance

Understanding the evolution of the CNS is fundamental for resolving the phylogenetic relationships within Panarthropoda (Euarthropoda, Tardigrada, Onychophora). The ground pattern of the panarthropod CNS remains elusive, however, as there is uncertainty on which neurological characters can be regarded as ancestral among extant phyla. Here we describe the ventral nerve cord (VNC) in Chengjiangocaris kunmingensis, an early Cambrian euarthropod from South China. The VNC reveals extraordinary detail, including condensed ganglia and regularly spaced nerve roots that correspond topologically to the peripheral nerves of Priapulida and Onychophora. Our findings demonstrate the persistence of ancestral neurological features of Ecdysozoa in early euarthropods and help to reconstruct the VNC ground pattern in Panarthropoda.

Fig. 2: Fine neurological organization of the VNC in C. kunmingensis, YKLP 12026.

Abstract

Panarthropods are typified by disparate grades of neurological organization reflecting a complex evolutionary history. The fossil record offers a unique opportunity to reconstruct early character evolution of the nervous system via exceptional preservation in extinct representatives. Here we describe the neurological architecture of the ventral nerve cord (VNC) in the upper-stem group euarthropod Chengjiangocaris kunmingensis from the early Cambrian Xiaoshiba Lagerstätte (South China). The VNC of C. kunmingensis comprises a homonymous series of condensed ganglia that extend throughout the body, each associated with a pair of biramous limbs. Submillimetric preservation reveals numerous segmental and intersegmental nerve roots emerging from both sides of the VNC, which correspond topologically to the peripheral nerves of extant Priapulida and Onychophora. The fuxianhuiid VNC indicates that ancestral neurological features of Ecdysozoa persisted into derived members of stem-group Euarthropoda but were later lost in crown-group representatives. These findings illuminate the VNC ground pattern in Panarthropoda and suggest the independent secondary loss of cycloneuralian-like neurological characters in Tardigrada and Euarthropoda.

stem-group Euarthropoda Onychophora phylogeny Cambrian Explosion Xiaoshiba Lagerstätte

Acknowledgments

We thank K.-S. Du and J.-F. He for assistance with fossil collection. B. J. Eriksson (University of Vienna), G. Mayer (University of Leipzig), and G. Bicker (University of Veterinary Medicine Hannover) generously contributed photographic material for Fig. S5. This work was supported by National Natural Science Foundation of China (NSFC) Grants 41472022 and U1402232 (to J.Y. and X.-g.Z.), a research fellowship at Emmanuel College and a Herchel Smith fellowship (both University of Cambridge; to J.O.-H.), and a Ludwig Maximilians Universität München excellent Junior Researcher fund and NSFC Grant 41528202 (to Y.L.).

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Footnotes

1Present address: Department of Zoology, University of Cambridge, Cambridge CB2 3EJ, United Kingdom.

2To whom correspondence should be addressed. Email: xgzhang@ynu.edu.cn.
Author contributions: J.Y., N.J.B., and X.-g.Z. designed research; J.Y., J.O.-H., N.J.B., Y.L., J.-b.H., T.L., and X.-g.Z. performed research; Y.L. and G.S.B. contributed new reagents/analytic tools; J.O.-H. analyzed data; J.O.-H. and N.J.B. wrote the paper; J.Y. collected and prepared all the fossil material; J.O.-H. performed light photography; N.J.B. and X.-g.Z. discussed and approved the manuscript; Y.L. and G.S.B. performed immunohistochemistry and living animal microscopy; and J.-b.H. and T.L. collected fossil material and performed photography.

The authors declare no conflict of interest.

This article is a PNAS Direct Submission. G.D.E. is a guest editor invited by the Editorial Board.

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